DE3239840A1 - CIRCUIT ARRANGEMENT FOR ACTUATING ELECTROMAGNETIC SWITCHGEAR - Google Patents

Description

SIEMENS AKTIENGESELLSCHAFT Our mark Berlin and Munich - 2 - VPA 82 P 3 3 2 7 DE

Circuit arrangement for actuating electromagnetic Switchgear

The invention relates to a circuit arrangement to actuate excitation coils of electromagnetic switching devices using a voltage parallel to the actuation voltage lying condenser and an input or. Off switch for the arrangement.

In a known circuit arrangement (Siemens catalog NS2, January 7k) , an energy store in the form of a capacitor is connected in parallel to the protective coil in order to achieve a large opening delay, for example to bridge short voltage interruptions in the control circuit, which is discharged via the coil if the control voltage fails, so that the contactor magnet remains closed for a long time. In order to obtain reproducible switching times, the capacitor must be charged with direct voltage.

In addition, for the sake of a sufficiently large

Time constant in the discharge circuit of a contactor drive magnet system can be used, which is also suitable for operation with direct current without circuitry.

In such an embodiment, the opening delay in alternating current controls can already be contactors in operation cannot simply be enlarged by adding an additional module; because AC systems have too low a resistance for direct current actuation and thus also a

U 2 Ts / 10/20/1982

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Charge time constant too low. The invention lies thus the task underlying®, a circuit arrangement of The above-mentioned type can be improved in such a way that to achieve an opening »verzug®« using a with direct current chargeable capacitor the use an AC magnet system is possible without doing this to have to drive a considerable effort · This is achieved in a simple manner that the capacitor a clock generator in parallel and the excitation coil an electronic one controlled by the clock generator Switch is connected upstream.

When using the circuit arrangement as a drop-out delayed Contactor can set the fall times in a simple way Set catfish if the clock generator is adjustable. To the circuit arrangement even with AC operated Contactor drive connected to a direct current source is to be able to be used, it is also advantageous if the clock generator is preceded by a timing element is. This allows special measures known per se, the so-called DC saving circuits with series resistors that are bridged for the switch-on process or double winding systems with tightening and holding windings are not required. The setting can also be done here of the timer can be an advantage. If a free-wheeling diode is connected in parallel to the excitation coil, so a slower reduction of the coil energy during the time of the clock via the electronic switch predetermined currentless break reached. To any, usually AC-operated contactor drives To be able to connect a direct current source, it is also advantageous if the circuit arrangement a diode is connected upstream in the forward direction of the electronic switch. This diode is activated when connected to an AC power source to charge the

-jV VPA 82P3327DE Capacitor ait DC voltage required in any case Among other things, commercially available electromagnetic switching devices To be able to equip in a simple manner in the manner according to the invention, it is advantageous if the components the circuit arrangement to an ait the electromagnetic Switching device are combined electrically and mechanically connectable unit.

An exemplary embodiment according to the invention is described and the mode of operation in more detail with the aid of the drawing explained.

Show it:

Fig. 1 shows a circuit arrangement for the switch-off delay is usable,

Fig. 2 the current flow diagrams over time in the coil

and in the SaatStromkreis and

3 shows the circuit arrangement according to FIG. 1 for use as a direct current saving circuit with an upstream Timer.

In the circuit arrangement according to Fig. 1 is parallel to the series circuit of the excitation coil 1 and the electronic The transistor 2 forms switches, the clock generator 3 and the capacitor 4 in parallel. The parallel connection is already separated from the Netzkleaaen 5, 6 by the open switch 7. A diode β provides the possibility, to be able to connect the circuit arrangement to both AC voltage and DC voltage.

A free-wheeling diode 9 is located directly parallel to the excitation coil 1. The function is as follows: Will either the switch 7 is open after it has been closed or the voltage at the network terminals 5, 6 briefly interrupted, the capacitor charged to the voltage Uo ait that of dea into aea

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wide voltage range operating clock generator 3 discharged predetermined switching frequency via the excitation coil 1. The discharge time can be determined via the clock frequency. The freewheeling diode 9 causes a slower reduction in the coil energy during the currentless pause predetermined by the clock generator 3 via the transistor 2, so that the current in the coil I ₈ over the time in FIG. 2 results. I over time represents the current flow in the discharge circuit during cycling. The current flow in the excitation coil is therefore not quite to zero even in cyclic operation, as FIG. 2 shows, so that the electromagnetic switching device emits the necessary voltage as long as the capacitor 4 , remains switched on.

Will now, like Flg. 3 shows the switch 7 closed, a capacitor 4 is thus charged via the diode 8. A timing element 10 cooperating with the clock generator 3 causes the transistor to initially switch transistor 2 for a predetermined time corresponding to the tent member switches through. As a result, the excitation coil receives 1 switch-on command, and the high current, which is only limited and desired by the ohmic coil resistance, charges the Switch on the electromagnetic switching device. After the specified time has elapsed, which is approximately the same as the closing time of the magnet system, the clock generator 3 goes into clock mode. The pulse-pause ratio is so too choose that the contactor coil is not thermally overloaded becomes, as was ensured in known arrangements by connecting the economy resistor upstream. Through the An arrangement according to the invention is thus created that both the function of delayed Protect as well as the function of DC-saving circuits can take over without needing a separate Afuwand.

6 claims
3 figures

6 blank page

Claims (6)

Claims f ^^ Circuit arrangement for actuating excitation coils Electromagnetic switchgear © using a capacitor lying parallel to the actuation voltage and an on / off switch for the arrangement, characterized in that the Capacitor (4) a clock generator (3) in parallel and the excitation coil (1) one controlled by the clock generator (3) electronic Sehalter (2) is connected upstream. 2. Circuit arrangement according to claim 1, characterized characterized in that the clock generator (3) a timing element (10) is connected upstream. 3. Circuit arrangement according to claim 1 or 2, characterized characterized in that the clock generator (3) or timing element (10) are adjustable. 4. Circuit arrangement according to claim _{1, 2 or 3 (} characterized in that the excitation coil (1) has a free-wheeling diode (9) connected in parallel. 5 circuit arrangement according to claim 1, 2, 3 or 4, characterized in that the circuit arrangement has a diode (8) in the forward direction of the electronic switch (2) is connected upstream. 6. Circuit arrangement according to one of the preceding claims, characterized in that that the components of the circuit arrangement to one with the electromagnetic switching device electrical and mechanically connectable unit are combined. BAD OFHGfNAL